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WORK ENERGY POWER 8.pptx
- 1. WORK, ENERGY & POWER
- 2. A B Who’s doing more work?
- 3. WORK Work is defined as the product of the net force acting on a body and the distance moved in the direction of the force Work = force x parallel distance W = F x d SI unit: J - joules (1 joules = 1Nm = 1kgm2/s2)
- 4. A B Who’s doing more work?
- 5. Only the component of the applied force, F, in the direction of the motion of the lawn mower, FHorizontal, is used to do work on the lawn mower. WORK
- 6. Practice! 1. An object is moved with a force of 15 N across a horizontal surface. How much work is done if the object is moved 50 m? 2. 650 J of work is done in moving a desk a horizontal distance of 5 m. How much force is used to move the desk? 3. How much work is done in lifting a 10 kg box 1.5 m off the fl oor?
- 7. How much work is done in lifting a 10 kg box 1.5 m off the fl oor? W=Fd W = (9.81 N)(1.5 m) = ? Practice!
- 8. Practice! How much work is done while walking 5.0 m holding an object with mass of 3.0 kg?
- 9. Practice!
- 10. POWER Power is the rate at which work is done SI unit: watts (1 watt=1 joule/s)
- 12. Which person below does more work? Which person has greater power? Explain.
- 13. 1. A force of 150 N is used to push a motorcycle 10 m along a road in 20 s. Calculate the power in watts. 2. An 80 kg man runs up a flight of stairs 5.0 m high in 10 seconds. What is the man’s power output in watts? 3. A pump lifts 30 kg of water a vertical distance of 20 m and 50 seconds. What is the power output? Practice!
- 14. Problem #1. How much power is required to do 200 joules of work in 4 seconds?What if you do the same work in 2 seconds? Did you notice anything? Say what you noticed. Problem #2. Which person is more powerful? It takes John 2 seconds to lift a 100-kg barbell a distance of 20 centimeters. It takes Peter 3 seconds to lift a 200-kg barbell a distance of 15 centimeters. Problem #3. The power of a machine is 4 kilowatts. How much work can this machine do in 1 second?
- 16. ENERGY • Energy is defined as the ability to do work
- 17. ENERGY • Two types of energy: kinetic (motion) and potential (stored) • SI unit of energy are joules (1 joule=1kgm2/s2)
- 19. Kinetic Energy • KE is energy of motion • KE is a scalar quantity
- 20. EXAMPLE: A 200 kg roller coaster car that is moving with a speed of 12.0 m/s. What is the value of its kinetic energy? Answer: 14,400 J
- 21. Practice! 1. What is the kinetic energy of a 60 kg girl on traveling at 20 m/s? 2. A sports car is moving at 4.0 m/s. If the mass of the car is 800 kg, how much kinetic energy does it have?
- 22. Potential Energy • PE is stored energy The compressed spring has potential energy because when released it can do work on the mass, m • Gravitational PE is energy of position
- 23. Potential Energy • Gravitational PE is energy of position
- 24. EXAMPLE: A 1.0 kg brick placed on top of a 2.0 kg toy car is carried along an inclined plane to a height of a tabletop that is 0.50 m high. Determine the gravitational potential energy of the toy car at the table top. Answer: 14.7 Nm or 14. 7 J
- 25. Practice! 1. A mass of 100 kg is lifted a distance of 50 m. How much potential energy does it possess? 2. A 70kg diver standing on a diving platform possesses 35000 J of PE. How high is the platform?
- 26. Conservation of Energy • The sum of kinetic energy and potential energy in a system is constant, in absence of friction. • Energy cannot be created or destroyed; it may be transformed from one form to another, but the total amount of energy in a system remains constant.
- 28. Practice! 1. A 10kg boulder rests at the edge of a 100m cliff. a. How much potential energy does the rock possess b. The rock rolls off the cliff and falls to the bottom. How much kinetic energy does the rock possess at the bottom of the cliff?